If the electron in the atom transists from the second orbit to first then in what region would the emitted energy ?

What is the energy in joules requried to shift the electron of the hydrogen atom from the first Bohr orbit to the fifth bohr orbit and what is the wavelength of the light emitted when the electron returns to the ground state ? The ground state electron energy is 2.18 xx 10^(1) ergs

An electron in hydrogen atom first jumps from second excited state to first excited state and then from first excited state to ground state. Let the ratio of wavelength, momentum and energy of photons emitted in these two cases be a, b and c respectively, Then

If an electron in a hydrogen atom jumps from the 3rd orbit to the 2nd orbit, it emits a photon of wavelength lambda . When it jumps from the 4^(th) orbit to the 3^(rd) orbit, the corresponding wavelength of the photon will be

When an electrons makes a transition from higher orbit in the hydrogen atom, what are the lines of the Balmer series obtained ?

Find the radius of first second third orbit of hydrogen

Which type of spectra obtained if electron transists from M - orbit to L- orbit ?

If the binding energy of the electron in a hydrogen atom is 13.6 eV, the energy required to remove the electron from the first excited state Li^(+2) is .......

If the binding energy of the electron in a hydrogen atom is 13.6 eV , the energy required to remove the electron from the first excited state of Li^(++) is

The ionization energy of the electron in the hydrogen atom in its ground state is 13.6 eV. The atoms are excited to higher energy levels to emit radiation of 6 wavelengths. During which of the following transitions will the maximum wavelength radiation be emitted ?